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Method and system for interactive simulation of materials

a material simulation and interactive technology, applied in the field of computer simulations, can solve the problems of -body simulation, inability to simulate soft objects, and difficulty in simulating rigid or semi-rigid objects

Active Publication Date: 2013-03-12
MILLMAN ALAN
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0045]The method and system provide improved flexible simulation, the ability to combine rigid and flexible simulation, a collision-detection method for simulating materials, and a hardware and software configuration which allows a user to interact directly with simulated objects with combined rigid and flexible components.

Problems solved by technology

A limitation of rigid-body simulations is that they do not allow the simulation of soft objects.
A limitation of flexible-body simulations is that they have difficulty simulating rigid or semi-rigid objects.
As springs are made stiffer, instabilities arise, and their equations become increasingly difficult to solve at interactive frame-rates.
Another limitation of flexible-body simulations is that they simulate rotations by propagating translations across a network of springs.
A limitation of FEA simulations is that they do not allow interaction with simulated objects, due to the time required for computation.
Another limitation of FEA is the requirement that FEM objects be composed of homogeneously-shaped elements, which makes their creation more difficult, error-prone, and in certain situations, impossible.
One limitation of some of these technologies is the necessity to precompute certain aspects of the model's response to forces, or to make certain variables unchangeable.
This makes it difficult to generate objects, or to change the characteristics of existing objects, while the simulation is running.
Another limitation of certain newer interactive soft-body simulation technologies is their inability to simulate materials that respond to forces in a nonlinear manner.
Another limitation of certain newer interactive soft-body simulation technologies is the necessity that objects or elements be composed of homogeneous materials.
This does not allow objects composed of heterogeneous materials to be simulated efficiently.
Another limitation of some soft-body technologies is the necessity that objects be made up of incompressible elements, which limits the kinds of materials that can be simulated.
Yet another limitation of some soft-body simulation technologies is an inability to simulate materials that are not in equilibrium.
There are a number of other problems specifically associated with interactive material simulations.
Barriers to a general-purpose interactive material simulation have historically included:The amount of data to be computed in order to achieve a reasonable simulationThe complexity and number of calculations necessaryLack of appropriate numerical methods to bring to bear on the simulationLack of methods to calculate real-time collisions between irregular moving surfacesLack of expertise in the calculation of forces between colliding flexible bodiesThe inability to derive solutions to the motions of complicated dynamic models at interactive rates.

Method used

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  • Method and system for interactive simulation of materials

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Embodiment Construction

[0063]FIG. 1A is a block diagram illustrating an exemplary simulation system 10. The exemplary system 10 includes one or more computers 12 with one or more processors or central processing units (CPUs) with one or more computer displays 14 (two of which are illustrated). The computer display 14 may include any of a windowed graphical user interface (“GUI”) 16 with multiple windows, or one or more simulation views 19, to a user. One or more databases 18 (one of which is illustrated) include data in various digital data formats. The databases 18 may be integral to a memory system on the computer 12 or in secondary storage such as a hard disk, floppy disk, optical disk, or other non-volatile mass storage devices. The computer 12 and the databases 18 may be in communications with and accessible via one or more communications networks 20.

[0064]In one embodiment, exemplary simulation system 10 includes additional components. Tracking devices 11 may be connected to the one or more computer...

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Abstract

A method and system for interactive simulation of materials. The method and system provide flexible simulation, the ability to combine rigid and flexible simulation, a collision-detection method for simulating objects and other entities, and a system for displaying and interacting with simulated objects which includes a harness for registering the hardware components of the simulation with respect to each other.

Description

CROSS REFERENCES TO RELATED APPLICATIONS[0001]This application claims priority from U.S. Provisional Patent Application 60 / 790,093, filed Apr. 8, 2006, the contents of which are incorporated by reference.FIELD OF THE INVENTION[0002]This invention relates to computer simulations. More specifically, it relates to a method and system for simulation of materials with combined rigid and flexible components, and a method of aligning hardware components for interacting with virtual objects.BACKGROUND OF THE INVENTION[0003]Simulation has many applications. It is used to design and prototype products. It is used to engineer and test materials and designs. It is used for training and education. It is used to create content for various forms of entertainment, animation, and virtual reality. It is also used in medicine; medical simulators include those used for making diagnostics of diseases and medical conditions, and for simulating surgery and surgical techniques. It is used in robotics. And ...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): G06T13/00G09B23/28
CPCG06F17/5009G06F17/5018G06T13/00G06F2217/16G06F30/23G06F2111/10G06F30/20
Inventor MILLMAN, ALAN
Owner MILLMAN ALAN
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